JUMO 202710 Operating instructions

Type
Operating instructions

This manual is also suitable for

Handheld Meter for Conductivity (CR),
Specific Electrical Resistivity, TDS, and Salinity
Type 202710/30
Operating Manual
20271030T90Z001K000
V2.00/EN/00463204
Contents
1 Typographical conventions ...................................................... 5
1.1 Warning symbols .........................................................................................5
1.2 Note symbols ...............................................................................................5
2 General information .................................................................. 6
2.1 Preface .........................................................................................................6
2.2 Intended use ................................................................................................6
2.3 Safety information ........................................................................................6
2.4 Notes on operation and maintenance ..........................................................8
2.4.1 Battery operation .........................................................................................8
2.4.2 Power supply unit operation ........................................................................8
3 Identifying the device version .................................................. 9
3.1 Nameplate ....................................................................................................9
3.2 Order details .................................................................................................9
4 Operation ................................................................................. 10
4.1 Display .......................................................................................................10
4.2 Control elements ........................................................................................11
4.3 Connections ...............................................................................................12
4.4 Stand-up hinge ..........................................................................................12
5 Measuring ................................................................................ 13
5.1 The measuring cell .....................................................................................13
5.2 Switching on the device .............................................................................14
5.3 Measuring the conductivity ........................................................................14
5.4 Measuring the specific electrical resistivity ................................................15
5.5 Measuring the filtrate dry residue (TDS measurement) ..............................15
5.6 Measuring the salinity ................................................................................16
5.7 Temperature compensation .......................................................................17
5.7.1 Nonlinear temperature compensation "nLF" according to EN 27888 .......17
5.7.2 Linear temperature compensation "t.Lin" ..................................................18
5.8 Saving a measured value with the hold function (HLD) .............................18
6 Device settings ........................................................................ 19
6.1 Calling up the setting menu .......................................................................19
6.2 Resetting to default settings ......................................................................20
Contents
6.3 Configuring the device ...............................................................................20
6.3.1 Submenu "SEt ConF": general settings .....................................................20
6.3.2 Submenu "SEt Out": serial interface settings ............................................28
6.4 Parameterizing the device ..........................................................................29
6.4.1 Submenu "SEt Corr": offset/zero point correction and slope correction
of the temperature measurement ..............................................................29
6.4.2 Submenu "SEt CLOC": setting the real-time clock ...................................30
6.4.3 Submenu "rEAd CAL.": reading the calibration data .................................32
7 Calibration ............................................................................... 33
7.1 Offset/zero point correction and slope correction of the
temperature input .......................................................................................33
7.2 Calibrating the relative time constant ........................................................33
7.2.1 Calibration using customer-specific reference solution
("CAL Edit" function) ..................................................................................33
7.2.2 Calibration using standard reference solutions ("CAL rEF.S" function) .....34
7.2.3 Error messages during calibration .............................................................35
7.3 Determining the relative time constant with a calculation .........................35
8 Maintenance ............................................................................ 36
8.1 Good laboratory practice (GLP) .................................................................36
8.1.1 Calibration timer ("C.Int") ...........................................................................36
8.1.2 Reading the calibration data ("rEAd CAL") ................................................36
8.2 Real-time clock ("CLOC") ..........................................................................37
9 Error and system messages .................................................. 38
10 Returns and disposal .............................................................. 39
10.1 Returns .......................................................................................................39
10.2 Disposal .....................................................................................................39
11 Technical data ......................................................................... 40
12 China RoHS ............................................................................. 42
5
1 Typographical conventions
1.1 Warning symbols
1.2 Note symbols
DANGER!
This symbol indicates that personal injury from electrocution may occur if
the appropriate precautionary measures are not taken.
CAUTION!
This symbol in connection with the signal word indicates that damage to
assets or data loss will occur if the respective precautionary measures are
not taken.
NOTE!
This symbol refers to important information about the product, its handling,
or additional use.
Action instruction
This symbol indicates that an action to be performed is described.
6
2 General information
2.1 Preface
Read through this document carefully and familiarize yourself with the opera-
tion of the device before you start using it. Keep this document close at hand
and in the immediate vicinity of the device so that you or the specialist person-
nel can consult it at all times in case of doubt.
Mounting, startup, operation, maintenance, and decommissioning must only
be performed by personnel with a specialist qualification. The specialist per-
sonnel must have carefully read through and understood the operating manual
prior to commencing any work.
The liability and warranty of the manufacturer for damage and consequential
damage is rendered void in the event of improper use, failure to observe this
operating manual, deployment of personnel with insufficient qualifications,
and unauthorized modifications to the device.
The manufacturer is not liable for costs or damages incurred by the user or by
third parties through the use of this device, particularly in the event of
improper use of the device or in the event of misuse or malfunctions relating to
the connection or the device.
2.2 Intended use
When used with a securely connected sensor, the device is designed for mea-
suring conductivity, specific electrical resistivity, salt content, and TDS.
The safety information (see chapter 2.3 "Safety information") in this operating
manual must be observed.
The device must only be used under the conditions or for the purposes for
which it has been designed.
The device must be handled with care, protected against pollutants, and used
according to the technical data.
2.3 Safety information
The device has been built and tested according to the safety regulations for
electrical measuring devices. Please observe the customary safety precau-
tions and the device-specific safety information in this operating manual.
DANGER!
If it is assumed that risk-free operation of the device is no longer possible, the
device must be decommissioned and guarded against subsequent startup by
means of an identification marking. The safety of the user may be compro-
mised by the device if, for example, the device
features visible damage,
no longer operates in the specified manner,
has been stored in unsuitable conditions for an extended period of time.
In case of doubt, send the device to the manufacturer for repair/maintenance
.
7
2 General information
DANGER!
Do not operate with a defective power supply unit!
In this case, potentially fatal excess voltage may occur at the sockets of the
device!
DANGER!
The device is not suitable for safety applications, emergency off equipment,
or applications in which a malfunction could lead to injuries and material
damage.
Failure to observe this note may lead to serious damage to health and mate-
rial damage!
DANGER!
This device must not be used in a potentially explosive environment. If the
device is operated in a potentially explosive environment, there is an
increased hazard of deflagration, fire, or explosion due to formation of sparks!
NOTE!
The function and operational safety of the device can only be maintained
under the climatic conditions specified in chapter Chapter 11 "Technical
data", page 40.
If the device is transported from a cold environment to a warm environment,
the device may malfunction due to condensate formation. In this case, it is
necessary to wait for the device temperature to align with the room tempera-
ture prior to startup.
NOTE!
When connecting to other devices, take particular care in planning the wiring.
Under certain circumstances, internal connections in third-party devices (e.g.
connection of GND to ground) may lead to impermissible voltage potentials
that can cause impaired function or even destruction of the device itself or a
connected device.
NOTE!
Please do not connect any devices to socket 1 (see Chapter 4.3 "Con-
nections", page 12)!
2 General information
8
2.4 Notes on operation and maintenance
2.4.1 Battery operation
2.4.2 Power supply unit operation
NOTE!
The device and sensor must be handled with care and used according to the
technical data (do not throw, do not subject to impact, etc.). The connectors
and sockets must be protected against pollutants.
NOTE!
If is displayed at the same time as "bAt" is shown in the bottom display,
the battery has been used up and must be replaced. However, the device
function remains guaranteed for a certain period of time.
If "bAt" is shown in the top display, the battery voltage is no longer sufficient
for device operation and the battery is now completely used up.
NOTE!
The battery must be removed if the device is stored at an ambient tempera-
ture of over 50 °C. The battery should be removed if the device is not used for
an extended period of time.
It is necessary to set the real-time clock once again after subsequent startup.
CAUTION!
When a power supply unit is connected, its voltage must be between
DC 10.5 V and 12 V. Do not generate any excess voltage! Basic power supply
units may feature excess open circuit voltage, which may lead to malfunction
or destruction of the device!
Prior to connecting the power supply unit to the electricity grid, it must be
ensured that the operating voltage stated on the power supply unit corre-
sponds to the mains voltage.
9
3 Identifying the device version
3.1 Nameplate
Position
The nameplate is affixed to the base of the battery compartment.
Example
Fabrication number (F-No.)
The fabrication number provides information such as the production date
(year/week). The production date relates to the characters in positions 12 to 15
(from the left).
Example: F-No. = 00822713 01 0 1815 0001
The device was produced in the 15th calendar week of 2018.
3.2 Order details
Handmessgerät 202710/30 – 000
F – Nr. 00822713 01 0 1815 0001
(1) Basic type
202710/30 Manual measuring device for conductivity (CR), specific
electrical resistivity, TDS, and salinity
(2) Extra codes
000 None
071 Including carry case
(1) (2)
Order code /
Order example 202710/30 / 000
10
4 Operation
4.1 Display
(1) Display of the measured value unit
(2) Warning signal:
In case of low battery or recalibration request
(3) Temperature coefficient configuration unit
(4) Subsidiary display/subsidiary measured value:
Temperature measured value
(5) Display of the selected temperature compensation
(6) Display elements for the appearance of the minimum (MIN),
maximum (MAX), or saved measured value (HLD)
a
a
The "DIF" display is not supported in this device.
(7) Main display/main measured value:
Conductivity (mS/cm, µS/cm)
specific electrical resistivity (k
Ω
cm)
TDS/filtrate dry residue (mg/l)
Salinity (SAL)
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
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11
4 Operation
4.2 Control elements
The descriptions printed in black on the control keys relate to functions that
are available in measurement mode.
The descriptions and symbols printed in red on the control keys relate to func-
tions that are available when setting the device.
Key Function
during the measurement
Function
in setting menu
On/off switch
min/max...
... pressed briefly:
Display minimum or maximum
value measured so far
... pressed for 2 seconds:
Delete the value in
question
/
Enter values or modify settings
CAL...
... pressed for 2 seconds:
Start calibration of the
relative cell constants
(only possible in operating
mode "cond" = conductivity)
"Scroll" through the parameter
sublevels of the submenu
Store:
Hold and save the
current measured value
("HLD" in display)
Quit:
Return to measuring, entries/
settings will be saved
Set...
... pressed briefly:
Toggle between units (only pos-
sible when setting the parame-
ter "InP" to the value "SEt")
... pressed for 2 seconds:
Call up the setting menu
Menu:
Return to setting menu, entries/
settings will be saved
ON
OFF
1
5
min
max
2
CAL
3
6
Store
Quit
4
Set
Menu
4 Operation
12
4.3 Connections
4.4 Stand-up hinge
Operation: Pull on the "open" lettering to fold out the stand-up hinge to a position of
90 ° (1). Pull on the "open" lettering again to fold out the stand-up hinge to
a position of 180 ° (2).
Functions: When the stand-up hinge is closed, the device can be laid flat on the table or
secured on a belt.
When the stand-up hinge is at a position of 90 °, the device can be set up on
an even surface.
When the stand-up hinge is at a position of 180 °, the device can be hung on
a hook, for example.
(1)
This socket does not have a function, please do not connect any devices
(2) Connecting cable of the securely connected conductivity measuring cell
(3) Socket for connecting a power supply unit
Stand-up hinge closed
Stand-up hinge positioned at 90°/180°
13
5 Measuring
5.1 The measuring cell
The conductivity measurement is a relatively straightforward measurement.
The measuring cell that is securely connected to the device remains stable for
a long time when properly used and can be aligned using the integrated cali-
bration function (see chapter 7.2, page 33).
Use
For measuring purposes, the measuring cell must be immersed in the mea-
surement medium to a minimum depth of 30 mm and a maximum depth of
110 mm.
The measuring cell can be stored dry or standing in clean water.
A measuring cell that has been stored under dry conditions requires a slightly
longer time to display a stable measured value than a measuring cell that has
been stored under wet conditions.
Before the measuring cell is moved into a liquid with a significantly different
conductivity, it should be rinsed and the residual moisture should be captured
with an absorbent cloth or paper.
If an unexpectedly high or low conductivity is measured, this can be traced
back to pollutants on the electrodes. In this case, the measuring cell can be
cleaned with an aqueous detergent solution.
NOTE!
Never bring the measuring cell into contact with water-repellent substances
such as oil or silicone.
When performing measurements in measurement media with low conductivity,
it is necessary to ensure sufficient flow to the electrodes.
5 Measuring
14
5.2 Switching on the device
Briefly press the key.
If a correction of the relative cell constant (see chapter 7.2, page 33) has been
performed, the device accordingly provides a brief display of " " and the
set relative cell constant after the segment test.
If a zero point correction (offset) or slope correction has been performed on
the temperature sensor (see chapter 7.1, page 33), the device accordingly pro-
vides a brief display of " " after the segment test.
The device is subsequently ready to commence measuring.
5.3 Measuring the conductivity
Definition
Conductivity
1
is the ability of a material or an electrolyte to conduct electric
current.
In aqueous solutions (electrolytes), the current flows through the charge trans-
port of the ions dissolved in the electrolyte. The conductivity measurement is
therefore excellently suited to determining the concentration of saline solu-
tions, acids, and lyes.
The conductivity is the reciprocal of the specific electrical resistivity and is
stated by the device in µS/cm or mS/cm.
Select the measurand
The device is preconfigured per default for measuring the conductivity
with automatic selection of the measuring range (Auto Range).
If the device has been configured for a different measurand in a user-
defined operation, first change the measurand (see "Parameter "InP":
selection of a measurand", page 21).
If the measuring range is selected automatically, the measuring range with the
best dissolution is always selected from the measuring ranges listed.
NOTE!
The device is preconfigured per default for measuring the conductivity
with automatic selection of the measuring range (Auto Range).
The device activates all display segments
for a short time (segment test).
1
Specifically relates to electrical conductivity here
15
5 Measuring
Measuring ranges
0.0 to 200.0 µS/cm
0 to 2000 µS/cm
0.00to20.0mS/cm
0.0 to 200.0 mS/cm
For the purpose of measurement, a fixed set measuring range can also be
selected instead of the measuring range being selected automatically, see
"Parameter "rAnG": selection of the display range or the measuring range",
page 23.
5.4 Measuring the specific electrical resistivity
Definition
The specific electrical resistivity is the reciprocal of the conductivity and is
stated by the device in kOhm × cm.
Select the measurand
If the device has been configured for a different measurand in a user-
defined operation, first change the measurand (see "Parameter "InP":
selection of a measurand", page 21).
If the measuring range is selected automatically, the measuring range with the
best dissolution is always selected from the measuring ranges listed.
Measuring ranges
0.000 to 2.000 k
Ω ×cm
0.00 to 20.00 k
Ω ×cm
0.0 to 100.0 k
Ω ×cm
For the purpose of measurement, a fixed set measuring range can also be
selected instead of the measuring range being selected automatically, see
"Parameter "rAnG": selection of the display range or the measuring range",
page 23.
5.5 Measuring the filtrate dry residue (TDS measurement)
Definition
The TDS measurement (Total Dissolved Solids) uses the conductivity and a
conversion factor "C.tdS" to determine the filtrate dry residue TDS (evapora-
tion residue). The conversion factor is entered manually in the configuration
menu of the device (see "Parameter "C.tdS": conversion factor for TDS mea-
surement", page 22).
This method is well suited to performing simple concentration measurements,
e.g. of salt solutions. The results are displayed in mg/l.
Display value TDS (in mg/l) = conductivity (in µS/cm) × C.tdS (conversion
factor) at temperature compensation (t.Cor) = "nLF" and
reference temperature (t.rEF) = 25 °C.
5 Measuring
16
The following approximate values apply for C.tdS:
Select the measurand
If the device has been configured for a different measurand in a user-
defined operation, first change the measurand (see "Parameter "InP":
selection of a measurand", page 21).
If the measuring range is selected automatically (default setting), the measur-
ing range with the best dissolution is always selected from the measuring
ranges listed below.
Measuring ranges
0.0 to 200.0 mg/l
0 to 2000 mg/l
For the purpose of measurement, a fixed set measuring range can also be
selected instead of the measuring range being selected automatically, see
"Parameter "rAnG": selection of the display range or the measuring range",
page 23.
5.6 Measuring the salinity
Definition
The salinity (salt content) of seawater can be measured in the measurement
type "SAL".
The display in the device does not feature a unit and corresponds to the salt
content in g/kg (grams of salt per kilogram of seawater) or per mil (‰). The
description "PSU" (Practical Salinity Unit) is also commonly used.
The salinity measurement in this device relates to the International Oceano-
graphic Tables (IOT). Accordingly, a salinity of 35 g/kg is taken as a reference
value (standard mass concentration) for seawater.
However, depending on the location, weather, seasons, etc., the salt composi-
tion at the various measurement points may deviate from the standard mass
concentration, sometimes considerably. Refer to the IOT tables in such cases.
0.50 Monovalent salts with 2 ion types (NaCl, KCl, etc.)
0.50 Natural waters/surface water, drinking water
0.65 to 0.70 Salt concentration of aqueous fertilizer solutions
NOTE!
The stated values for "C.tdS" are only reference values that are good for esti-
mates but are not suitable for precise measurements.
For precise measurements, the conversion factor must be determined for the
respective solution type and the concentration range being considered.
This can be performed either through calibration with familiar comparative
solutions or through actual evaporation of a certain quantity of fluid with a
determined conductivity and subsequent weighing of the dry residue.
17
5 Measuring
Select the measurand
If the device has been configured for a different measurand in a user-
defined operation, first change the measurand (see "Parameter "InP":
selection of a measurand", page 21).
Measuring range
0.0 to 70.0 ‰ (g/kg)
5.7 Temperature compensation
The conductivity and TDS of aqueous solutions depend on the temperature.
Thanks to the temperature compensation, the solution is counted back to a
uniform reference temperature.
The normal reference temperature, which is preset in the device, is 25 °C.
5.7.1 Nonlinear temperature compensation "nLF" according to EN
27888
The nonlinear temperature compensation for natural waters ("nLF" according
to EN 27888) is sufficiently accurate for most applications, for example in the
area of fish breeding and for measuring surface water and drinking water.
Recommended area of application
The "nLF" compensation is recommended for conductivity measurements
between 60 µS/cm and 1000 µS/cm.
NOTE!
This measurement is intended exclusively for measuring seawater. The salin-
ity measurement is not suitable for determining the salt concentration of other
saline solutions. A measurement according to TDS is recommended in such
cases, see Page 15.
NOTE!
The salinity measurement features dedicated automatic temperature com-
pensation, independent of the menu settings concerning temperature com-
pensation for conductivity.
5 Measuring
18
5.7.2 Linear temperature compensation "t.Lin"
If the temperature compensation type is not precisely known, the "linear tem-
perature compensation" is used in practice (see "Parameter "t.Lin": compen-
sation coefficient", page 25). This involves making the simplified assumption
that the ratio of the temperature to the concentration will take a linear trajec-
tory across the measuring range being considered.
Conductivity calculation within the device
The conductivity is hereby calculated using the following equation. In this
regard, the parameter "t.Lin" corresponds to the formula value "TK
lin
".
Calculating the temperature coefficient
A temperature coefficient can be calculated, for example, by determining the
conductivity of a solution at 2 temperatures (T1 and T2) with the temperature
compensation switched off (t.Cor = oFF).
5.8 Saving a measured value with the hold function (HLD)
The device features a "HOLD" function for saving a measured value.
Depending on the device configuration (see "Parameter "Auto HLD": auto-
matic saving of a measured value", page 27), the measured value can be
saved either by pressing the key or automatically when a stable measured
value is reached.
When the measured value has been saved successfully, the message "HLD"
appears on the device display.
Press the key again to delete the saved value.
When automatic saving is activated, the next stable measured value will sub-
sequently be saved.
LF
Tref
= Conductivity at reference temperature
TK
lin
= Linear temperature coefficient
LF
Tx
= Uncompensated conductivity at
current temperature
Tx = Current temperature
Tref = Reference temperature
TK
lin
= Linear temperature coefficient
LF
T1
= Conductivity at temperature T1
LF
T2
= Conductivity at temperature T2
NOTE!
Temperature coefficients of around 2.0 %/K are most common.
19
6 Device settings
6.1 Calling up the setting menu
Overview of the setting menu
The setting menu is called up from measurement mode by pressing the
key for at least 2 seconds (main display "SEt").
The 5 individual submenus in the setting menu are then selected by repeatedly
pressing the key.
Measuring (1) Display in measurement mode
Configuring
the device
(2) General settings, see page 20
(3) Settings for the serial output, see page 28
Parameterizing
the device
(4) Offset/zero point correction and slope correction of the tem-
perature measurement, see page 29
(5) Settings for the real-time clock, see page 30
Providing infor-
mation
(6) Read calibration data
a
, see page 36
a
Only possible if calibration data is stored in the device.
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
4
Set
Menu
6
Store
Quit
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
> 2 s> 2 s
4
Set
Menu
4
Set
Menu
4
Set
Menu
4
Set
Menu
4
Set
Menu
6
Store
Quit
6
Store
Quit
6
Store
Quit
6
Store
Quit
(2)
(3)
(4)(5)
(6)
(1)
NOTE!
The configuration is stopped if no keys are pressed for over 2 minutes. Any
changes made up to this point will not be saved!
6 Device settings
20
6.2 Resetting to default settings
6.3 Configuring the device
6.3.1 Submenu "SEt ConF": general settings
Overview of the parameters
After calling up the setting menu with and selecting the submenu "SEt
ConF", use the key to select the parameter to be configured.
NOTE!
If the and keys are pressed simultaneously for over 2 seconds, the
device is reset to the default settings.
SAL mg/l kOhm mS µS
Lin nLF AL Logg %/K 1/cm
CAL
3
HLD
(1)
(2)
(3)
(4)
(5)
(6)
(7) (8)
(9)
(10)
(11)
(12)
(13)
NOTE!
Certain parameters can only be accessed when certain device settings have
been made.
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JUMO 202710 Operating instructions

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